Meta-Bandit: Spatial Reuse Adaptation via Meta-Learning in Distributed Wi-Fi 802.11ax

IEEE Networking Letters Pub Date : 2023-04-20 DOI:10.1109/LNET.2023.3268648
Pedro Enrique Iturria-Rivera;Marcel Chenier;Bernard Herscovici;Burak Kantarci;Melike Erol-Kantarci
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Abstract

IEEE 802.11ax introduces several amendments to previous standards with a special interest in spatial reuse (SR) to respond to dense user scenarios with high demanding services. In dynamic scenarios with more than one Access Point, the adjustment of joint Transmission Power (TP) and Clear Channel Assessment (CCA) threshold remains a challenge. With the aim of mitigating Quality of Service (QoS) degradation, we introduce a solution that builds on meta-learning and multi-arm bandits. Simulation results show that the proposed solution can adapt with an average of 1250 fewer environment steps and 72% average improvement in terms of fairness and starvation than a transfer learning baseline.
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元带宽:在分布式 Wi-Fi 802.11ax 中通过元学习实现空间重用自适应
IEEE 802.11ax 对以前的标准进行了多项修订,特别关注空间重用 (SR),以应对高密度用户场景对服务的高要求。在有一个以上接入点的动态场景中,联合传输功率(TP)和净信道评估(CCA)阈值的调整仍然是一个挑战。为了缓解服务质量(QoS)下降,我们引入了一种基于元学习和多臂匪帮的解决方案。仿真结果表明,与转移学习基线相比,所提出的解决方案平均减少了 1250 个环境步数,在公平性和饥饿方面平均提高了 72%。
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IEEE Networking Letters
IEEE Networking Letters
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Table of Contents IEEE Networking Letters Author Guidelines IEEE COMMUNICATIONS SOCIETY IEEE Communications Society Optimal Classifier for an ML-Assisted Resource Allocation in Wireless Communications
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